Limits of economy and fidelity for programmable assembly of size-controlled triply-periodic polyhedra

arXiv - QuanBio - Subcellular Processes Pub Date : 2023-09-08 DOI:arxiv-2309.04632

Carlos M. Duque, Douglas M. Hall, Botond Tyukodi, Michael F. Hagan, Christian D. Santangelo, Gregory M. Grason

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Abstract

We propose and investigate an extension of the Caspar-Klug symmetry principles for viral capsid assembly to the programmable assembly of size-controlled triply-periodic polyhedra, discrete variants of the Primitive, Diamond, and Gyroid cubic minimal surfaces. Inspired by a recent class of programmable DNA origami colloids, we demonstrate that the economy of design in these crystalline assemblies -- in terms of the growth of the number of distinct particle species required with the increased size-scale (e.g. periodicity) -- is comparable to viral shells. We further test the role of geometric specificity in these assemblies via dynamical assembly simulations, which show that conditions for simultaneously efficient and high-fidelity assembly require an intermediate degree of flexibility of local angles and lengths in programmed assembly. Off-target misassembly occurs via incorporation of a variant of disclination defects, generalized to the case of hyperbolic crystals. The possibility of these topological defects is a direct consequence of the very same symmetry principles that underlie the economical design, exposing a basic tradeoff between design economy and fidelity of programmable, size controlled assembly.

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尺寸控制三周期多面体可编程装配的经济性和保真度极限

我们提出并研究了病毒衣壳组装的Caspar-Klug对称原理的扩展，以可编程组装尺寸控制的三周期多面体，原始，钻石和陀螺立方最小曲面的离散变体。受最近一类可编程DNA折纸胶体的启发，我们证明了这些晶体组件的设计经济性-就尺寸尺寸(例如周期性)所需的不同颗粒种类数量的增长而言-可与病毒外壳相媲美。我们通过动态装配仿真进一步测试了几何特异性在这些装配中的作用，结果表明，同时高效和高保真装配的条件需要编程装配中局部角度和长度的中等程度的灵活性。脱靶错装配发生于偏斜缺陷的变体，推广到双曲晶体的情况。这些拓扑缺陷的可能性是构成经济设计基础的相同对称原则的直接后果，暴露了设计经济与可编程、尺寸控制组装的保真度之间的基本权衡。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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arXiv - QuanBio - Subcellular Processes

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